## # Math Test def assert_float_and_int(exp_ary, act_ary) assert('assert_float_and_int') do flo_exp, int_exp, flo_act, int_act = *exp_ary, *act_ary assert_float(flo_exp, flo_act) assert_operator(int_exp, :eql?, int_act) end end assert('Math.sin 0') do assert_float(0, Math.sin(0)) end assert('Math.sin PI/2') do assert_float(1, Math.sin(Math::PI / 2)) end assert('Math.cos 0') do assert_float(1, Math.cos(0)) end assert('Math.cos PI/2') do assert_float(0, Math.cos(Math::PI / 2)) end assert('Math.tan 0') do assert_float(0, Math.tan(0)) end assert('Math.tan PI/4') do assert_float(1, Math.tan(Math::PI / 4)) end assert('Fundamental trig identities') do N = 13 N.times do |i| a = Math::PI / N * i ca = Math::PI / 2 - a s = Math.sin(a) c = Math.cos(a) t = Math.tan(a) assert_float(Math.cos(ca), s) assert_float(1 / Math.tan(ca), t) assert_float(1, s ** 2 + c ** 2) assert_float((1/c) ** 2, t ** 2 + 1) assert_float((1/s) ** 2, (1/t) ** 2 + 1) end end assert('Math.erf 0') do assert_float(0, Math.erf(0)) end assert('Math.exp 0') do assert_float(1.0, Math.exp(0)) end assert('Math.exp 1') do assert_float(2.718281828459045, Math.exp(1)) end assert('Math.exp 1.5') do assert_float(4.4816890703380645, Math.exp(1.5)) end assert('Math.log 1') do assert_float(0, Math.log(1)) end assert('Math.log E') do assert_float(1.0, Math.log(Math::E)) end assert('Math.log E**3') do assert_float(3.0, Math.log(Math::E**3)) end assert('Math.log2 1') do assert_float(0.0, Math.log2(1)) end assert('Math.log2 2') do assert_float(1.0, Math.log2(2)) end assert('Math.log10 1') do assert_float(0.0, Math.log10(1)) end assert('Math.log10 10') do assert_float(1.0, Math.log10(10)) end assert('Math.log10 10**100') do assert_float(100.0, Math.log10(10**100)) end assert('Math.sqrt') do num = [0.0, 1.0, 2.0, 3.0, 4.0] sqr = [0, 1, 4, 9, 16] sqr.each_with_index do |v,i| assert_float(num[i], Math.sqrt(v)) end end assert('Math.cbrt') do num = [-2.0, -1.0, 0.0, 1.0, 2.0] cub = [-8, -1, 0, 1, 8] cub.each_with_index do |v,i| assert_float(num[i], Math.cbrt(v)) end end assert('Math.hypot') do assert_float(5.0, Math.hypot(3, 4)) end assert('Math.erf 1') do assert_float(0.842700792949715, Math.erf(1)) end assert('Math.erfc 1') do assert_float(0.157299207050285, Math.erfc(1)) end assert('Math.erf -1') do assert_float(-0.8427007929497148, Math.erf(-1)) end assert('Math.erfc -1') do assert_float(1.8427007929497148, Math.erfc(-1)) end assert('Math.acos') do assert_float(0 * Math::PI / 4, Math.acos( 1.0)) assert_float(1 * Math::PI / 4, Math.acos( 1.0 / Math.sqrt(2))) assert_float(2 * Math::PI / 4, Math.acos( 0.0)) assert_float(4 * Math::PI / 4, Math.acos(-1.0)) assert_raise(Math::DomainError) { Math.acos(+1.1) } assert_raise(Math::DomainError) { Math.acos(-1.1) } end assert('Math.asin') do assert_float( 0 * Math::PI / 4, Math.asin( 0.0)) assert_float( 1 * Math::PI / 4, Math.asin( 1.0 / Math.sqrt(2))) assert_float( 2 * Math::PI / 4, Math.asin( 1.0)) assert_float(-2 * Math::PI / 4, Math.asin(-1.0)) assert_raise(Math::DomainError) { Math.asin(+1.1) } assert_raise(Math::DomainError) { Math.asin(-1.1) } assert_raise(Math::DomainError) { Math.asin(2.0) } end assert('Math.atan') do assert_float( 0 * Math::PI / 4, Math.atan( 0.0)) assert_float( 1 * Math::PI / 4, Math.atan( 1.0)) assert_float( 2 * Math::PI / 4, Math.atan(1.0 / 0.0)) assert_float(-1 * Math::PI / 4, Math.atan(-1.0)) end assert('Math.cosh') do assert_float(1, Math.cosh(0)) assert_float((Math::E ** 1 + Math::E ** -1) / 2, Math.cosh(1)) assert_float((Math::E ** 2 + Math::E ** -2) / 2, Math.cosh(2)) end assert('Math.sinh') do assert_float(0, Math.sinh(0)) assert_float((Math::E ** 1 - Math::E ** -1) / 2, Math.sinh(1)) assert_float((Math::E ** 2 - Math::E ** -2) / 2, Math.sinh(2)) end assert('Math.tanh') do assert_float(Math.sinh(0) / Math.cosh(0), Math.tanh(0)) assert_float(Math.sinh(1) / Math.cosh(1), Math.tanh(1)) assert_float(Math.sinh(2) / Math.cosh(2), Math.tanh(2)) assert_float(+1.0, Math.tanh(+1000.0)) assert_float(-1.0, Math.tanh(-1000.0)) end assert('Math.acosh') do assert_float(0, Math.acosh(1)) assert_float(1, Math.acosh((Math::E ** 1 + Math::E ** -1) / 2)) assert_float(2, Math.acosh((Math::E ** 2 + Math::E ** -2) / 2)) assert_raise(Math::DomainError) { Math.acosh(0.9) } assert_raise(Math::DomainError) { Math.acosh(0) } end assert('Math.asinh') do assert_float(0, Math.asinh(0)) assert_float(1, Math.asinh((Math::E ** 1 - Math::E ** -1) / 2)) assert_float(2, Math.asinh((Math::E ** 2 - Math::E ** -2) / 2)) end assert('Math.atanh') do assert_float(0, Math.atanh(Math.sinh(0) / Math.cosh(0))) assert_float(1, Math.atanh(Math.sinh(1) / Math.cosh(1))) assert_float(2, Math.atanh(Math.sinh(2) / Math.cosh(2))) assert_float(Float::INFINITY, Math.atanh(1)) assert_float(-Float::INFINITY, Math.atanh(-1)) assert_raise(Math::DomainError) { Math.atanh(+1.1) } assert_raise(Math::DomainError) { Math.atanh(-1.1) } end assert('Math.atan2') do assert_float(+0.0, Math.atan2(+0.0, +0.0)) assert_float(-0.0, Math.atan2(-0.0, +0.0)) assert_float(+Math::PI, Math.atan2(+0.0, -0.0)) assert_float(-Math::PI, Math.atan2(-0.0, -0.0)) inf = Float::INFINITY expected = 3.0 * Math::PI / 4.0 assert_float(+expected, Math.atan2(+inf, -inf)) assert_float(-expected, Math.atan2(-inf, -inf)) expected = Math::PI / 4.0 assert_float(+expected, Math.atan2(+inf, +inf)) assert_float(-expected, Math.atan2(-inf, +inf)) assert_float(0, Math.atan2(0, 1)) assert_float(Math::PI / 4, Math.atan2(1, 1)) assert_float(Math::PI / 2, Math.atan2(1, 0)) end assert('Math.ldexp') do assert_float(0.0, Math.ldexp(0.0, 0.0)) assert_float(0.5, Math.ldexp(0.5, 0.0)) assert_float(1.0, Math.ldexp(0.5, 1.0)) assert_float(2.0, Math.ldexp(0.5, 2.0)) assert_float(3.0, Math.ldexp(0.75, 2.0)) end assert('Math.frexp') do assert_float_and_int([0.0, 0], Math.frexp(0.0)) assert_float_and_int([0.5, 0], Math.frexp(0.5)) assert_float_and_int([0.5, 1], Math.frexp(1.0)) assert_float_and_int([0.5, 2], Math.frexp(2.0)) assert_float_and_int([0.75, 2], Math.frexp(3.0)) end